RU2043820C1 - Mixture for manufacturing moulds - Google Patents

Abstract

FIELD: foundry engineering. SUBSTANCE: mixture for semi-constant moulds has bag house dust as iron-containing agent and water. Bag house dust has 45-65 per cent of iron and its basicity index is 0,6-2,6. Mixture consisting of 80-97 per cent of bag house dust and 3-20 per cent of water enhances mould resistance and improves ingot surface quality after roasting. EFFECT: improved quality. 2 tbl

Description

 The invention relates to foundry, and in particular to compositions of mixtures for the manufacture of foundry molds in the production of small and medium castings.

Known self-hardening mixture for the manufacture of molds, which uses cupola cinder in an amount of 40-50 wt. [1]
The disadvantage of this mixture is the need to use scarce components and the inability to reuse forms from this material.

Closest to the invention is a mixture for the manufacture of permanent forms [2]
However, in the prototype, the mixture is moistened with a saturated aqueous solution of copper sulfate, which during the manufacturing process of the mold leads to the appearance of a low-melting eutectic Fe-FeS, along the boundaries of the particles of iron powder, causing a negative effect of red breaking, i.e. loss of strength at elevated temperatures.

 The purpose of the invention is to reduce the cost and increase the durability of the forms.

This is achieved by the fact that in the known mixture comprising an iron-containing substance and water, as an iron-containing substance, it contains Boghous dust with an iron content of 45-65% and a basicity index in the range of 0.6-2.6 in the following ratio of components, wt. Beghouse dust 80-97 Water 3-20
The molding mixture is prepared only from moistened metallurgical dust, in particular the dust from the main arc furnaces for cast iron melting. The dust is wetted and a mold is made from the resulting mixture using conventional densification methods. Then the form is fired for 1-5 hours in an oxidizing or reducing atmosphere at a temperature of 1000-1200 ^о С. During sintering, high strength is achieved due to the formation of cement stone and hematite metal bridges (reducing firing), which allows using the forms as semi-permanent.

 When the moisture content in the moldable mixture is below 3%, it loses its molding ability. In addition, at such humidity in the moldable mixture, a mechanism for increasing strength cannot be implemented, similar to the well-known process of hardening cement forms, proceeding in three stages. If the moisture content of the moldable mixture is in the range of 3-20%, then a mold can be made from it using conventional sealing methods. At the same time, the moisture in the mixture becomes enough for the process to harden the mold. It is due to the reaction of acidic and basic oxides contained in Behhouse dust with water and subsequent drying. In this case, the cement stone formed is held together by particles of Behhouse dust, which determines the self-hardening of the proposed mixture. In order for this mechanism to work, requirements for the content of iron oxides and for the value of the basicity index are imposed on the behouse dust. When the upper limit of humidity (20%) is exceeded, the mixture also loses its ability to form, since the shape attached to it is not preserved. This effect is known as waterlogging of the mixture. In the table. 1 shows the test results of samples of the inventive molding mixture with different moisture content in it.

должен колебаться в пределах 0,6-2,6.In order for the hardening process of the form to proceed efficiently, the presence of the following oxides in Mg / HF dust is necessary: MgO, CaO, SiO ₂ , Al ₂ O ₃ . These oxides will have a bonding effect on the dust of dust particles at a certain ratio corresponding to the composition of the cement. It has been experimentally established that, to ensure the necessary strength of the mold after drying, an indicator of the basicity of behouse dust
a

should fluctuate between 0.6-2.6.

If the indicator a is lower than 0.6, then the amount of acid oxides significantly exceeds the amount of basic oxides; if indicator a is higher than 2.6, then the amount of basic oxides significantly exceeds the amount of acid oxides. In both cases, the amount of substances (3CaO ^. SiO ₂ 2CaO ^. SiO ₂ ; 3CaO ^. Al ₂ O ₃ and others) in the Beghouse dust collected from furnace gases, due to which the formation of a cement stone occurs upon interaction with water and subsequent drying will not be sufficient to provide the necessary mold strength.

 In the table. 2 shows data on the strength of the samples obtained by molding from behouse dust with a different basicity index a.

In addition to CaO, MgO, SiO ₂ , Al ₂ O _3, behouse dust contains significant amounts of iron oxides. If the concentration of the latter exceeds 65%, then the proportion of CaO, MgO, SiO ₂ and Al ₂ O ₃ will be so small that even with a favorable basicity index and the strength of the form after drying will be insufficient due to the small amount of cement binder formed. There is also a limit to the lower limit of the content of iron oxides, which is 45%. If the boghous dust has a concentration of iron oxides lower than the lower limit, then after oxidative or reduction firing, the form will not be strong enough to be reused. This is due to the small number of hematite or metal bridges that are formed during the firing process. Thus, behouse dust, which is used as a component of the inventive molding sand, must contain iron oxides in the range of 45-65%
The data table. 3 confirm this conclusion, it presents the results of tensile testing specimens made from beghouzovoy dust with various iron oxides and subjected to reductive roasting at 1000 ^C for 5 hours.

 The proposed molding mixture with low cost provides semi-permanent molds, allows you to get a good surface quality of the castings, due to micron sizes of particles of metallurgical dust. In addition, issues of metallurgical waste disposal are being addressed, which will positively affect the environment.

Claims (1)

 MIXTURE FOR THE PRODUCTION OF CASTING FORMS, including iron-containing substance and water, characterized in that, in order to reduce the cost and increase the durability of forms, as the iron-containing substance, it contains boghous dust with an iron oxide content of 45 65% and a basicity index of 0.6 2.6 in the following ratio of components, wt. Beghouse dust with an iron oxide content of 45 65% and a basicity index of 0.6 2.6 80 97
Water 3 20

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